def test_to_and_from_dict(self):
        mm = MoleculeMatcher(tolerance=0.5,
                             mapper=InchiMolAtomMapper(angle_tolerance=50.0))
        d = mm.as_dict()
        mm2 = MoleculeMatcher.from_dict(d)
        self.assertEqual(d, mm2.as_dict())

        mm = MoleculeMatcher(tolerance=0.5, mapper=IsomorphismMolAtomMapper())
        d = mm.as_dict()
        mm2 = MoleculeMatcher.from_dict(d)
        self.assertEqual(d, mm2.as_dict())
 def test_fit(self):
     self.fit_with_mapper(IsomorphismMolAtomMapper())
     self.fit_with_mapper(InchiMolAtomMapper())
Example #3
0
    def __init__(self, redundancy_parameters, geometry):
        '''
        Makes a RedundancyGuard, and sets default parameter values if
        necessary.

        TODO: currently using pymatgen's structure matcher for comparing bulk
            and sheet structures, both pymatgen's structure matcher and
            molecule matcher for comparing wires, and only the molecule matcher
            for clusters. The sheet and wire cases aren't ideal, since the
            structure matcher assumes periodicity in all three dimensions, and
            the molecule matcher assumes no periodicity.

        Args:
            redundancy parameters: a dictionary of parameters

            geometry: the Geometry object
        '''

        # defaults
        #
        # lattice length tolerance, in fractional coordinates
        self.default_lattice_length_tol = 0.05
        # lattice angle tolerance, in degrees
        self.default_lattice_angle_tol = 2
        # site tolerance, in fraction of average free length per atom
        self.default_site_tol = 0.1
        # whether to transform to primitive cells before comparing
        self.default_use_primitive_cell = True
        # whether to check if structures are equal to supercells of each other
        self.default_attempt_supercell = True
        # RMSD tolerance for comparing clusters
        self.default_rmsd_tol = 0.1
        # the epa difference interval
        self.default_epa_diff = 0.0

        # set to defaults
        if redundancy_parameters in (None, 'default'):
            self.set_all_to_defaults()
        # parse the parameters, and set to defaults if necessary
        else:
            # lattice length tolerance
            if 'lattice_length_tol' not in redundancy_parameters:
                self.lattice_length_tol = self.default_lattice_length_tol
            elif redundancy_parameters['lattice_length_tol'] in (None,
                                                                 'default'):
                self.lattice_length_tol = self.default_lattice_length_tol
            else:
                self.lattice_length_tol = redundancy_parameters[
                    'lattice_length_tol']

            # lattice angle tolerance
            if 'lattice_angle_tol' not in redundancy_parameters:
                self.lattice_angle_tol = self.default_lattice_angle_tol
            elif redundancy_parameters['lattice_angle_tol'] in (None,
                                                                'default'):
                self.lattice_angle_tol = self.default_lattice_angle_tol
            else:
                self.lattice_angle_tol = redundancy_parameters[
                    'lattice_angle_tol']

            # site tolerance
            if 'site_tol' not in redundancy_parameters:
                self.site_tol = self.default_site_tol
            elif redundancy_parameters['site_tol'] in (None, 'default'):
                self.site_tol = self.default_site_tol
            else:
                self.site_tol = redundancy_parameters['site_tol']

            # whether to use primitive cells
            if 'use_primitive_cell' not in redundancy_parameters:
                self.use_primitive_cell = self.default_use_primitive_cell
            elif redundancy_parameters['use_primitive_cell'] in (None,
                                                                 'default'):
                self.use_primitive_cell = self.default_use_primitive_cell
            else:
                self.use_primitive_cell = redundancy_parameters[
                    'use_primitive_cell']

            # whether to try matching supercells
            if 'attempt_supercell' not in redundancy_parameters:
                self.attempt_supercell = self.default_attempt_supercell
            elif redundancy_parameters['attempt_supercell'] in (None,
                                                                'default'):
                self.attempt_supercell = self.default_attempt_supercell
            else:
                self.attempt_supercell = redundancy_parameters[
                    'attempt_supercell']

            # RMSD tolerance
            if 'rmsd_tol' not in redundancy_parameters:
                self.rmsd_tol = self.default_rmsd_tol
            elif redundancy_parameters['rmsd_tol'] in (None, 'default'):
                self.rmsd_tol = self.default_rmsd_tol
            else:
                self.rmsd_tol = redundancy_parameters['rmsd_tol']

            # epa difference
            if 'epa_diff' not in redundancy_parameters:
                self.epa_diff = self.default_epa_diff
            elif redundancy_parameters['epa_diff'] in (None, 'default'):
                self.epa_diff = self.default_epa_diff
            else:
                self.epa_diff = redundancy_parameters['epa_diff']

        # make the StructureMatcher object
        #
        # the first False is to prevent the matcher from scaling the volumes,
        # and the second False is to prevent subset matching
        self.structure_matcher = StructureMatcher(
            self.lattice_length_tol, self.site_tol, self.lattice_angle_tol,
            self.use_primitive_cell, False, self.attempt_supercell, False,
            ElementComparator())

        # make the MoleculeMatcher object
        if geometry.shape == 'cluster' or geometry.shape == 'wire':
            iso_mol_atom_mapper = IsomorphismMolAtomMapper()
            self.molecule_matcher = MoleculeMatcher(self.rmsd_tol,
                                                    iso_mol_atom_mapper)
            ob.obErrorLog.SetOutputLevel(0)  # to suppress openbabel warnings